Convenience system central control unit The convenience system central control unit monitors and controls the following functions: ● ● ● ● ● ● ● ● ●
●
●
central locking unlocking the fuel filler flap window regulators interior monitor anti-theft alarm system tilt sensor rear lighting bootlid light control unit activation for the bootlid rear window heater (refer to Self-Study Programme 272 "The Phaeton Onboard Power Supply") bootlid lock control with automatic closing
Convenience system central control unit
S273_029
Rear shelf
Central locking (CL) system The central logic of the central locking system for the doors and bootlid is stored in the convenience system central control unit. The functions are triggered by the entry information and the commands are transmitted to the door control units and the bootlid control unit. In the case of vehicles with standard equipment, the central locking is activated as before by using the button on the ignition key with radio-wave remote control. In the event of a fault the vehicle can be locked and unlocked by using a mechanical emergency lock cylinder in the driver's door.
Functional sequence The door control units provide information via the convenience CAN databus. The convenience system central control unit evaluates this information and controls the central locking functions. The door control units evaluate the messages from the convenience system central control unit and activate the motors for the central locking. In the convenience equipment of the system for entry and start authorisation, the convenience system central control unit receives the central locking command from the entry and start authorisation relay.
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Operating units for the central locking system ● ● ● ●
Radio-wave remote control Lock/Unlock button in all doors Driver's door lock cylinder (emergency locking) System for entry and start authorisation (optional)
S272_082
Lock/unlock button
Emergency functions Communication between the convenience system central control unit and the door control unit takes place via the CAN databus. If the CAN messages cannot be received by the door control units (for example if the convenience system central control unit is defective), the following emergency functions are initiated:
●
●
●
●
●
●
After five messages have not been received, all door control units detect that no further messages are being transmitted by the central control unit. The driver's door control unit assumes control of central locking. All other door control units react to the messages from the driver's door control unit. The signals from the driver's door lock cylinder, as well as those from the lock/unlock button become command signals and the operating units of the other doors cease to work. When operated, the lock cylinder takes priority over the button. If the CAN connection to the driver's door is interrupted, the door can only be activated manually by means of the lock cylinder; the lock/unlock button does not function.
Behaviour in a crash Information about a crash is transmitted via the CAN databus. A signal is transmitted from the convenience system central control unit to unlock the central locking.
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Convenience system central control unit Unlocking the fuel filler flap
Remote release switch for the fuel filler flap
The fuel filler flap is unlocked if: ●
●
●
there is a request made by means of a CAN message from the driver's side door control unit, the vehicle road speed is below the preset speed threshold and the vehicle has not been locked from outside. S273_067
Power regulators All window regulators have decentralised electric control and, for safety reasons, have a roll-back function when the window regulator motor has been learned-in. The convenience system central control unit generates the CAN signals for the convenience opening and closing functions.
Interior monitor (IM)
Sensors for interior monitor
The IM in the roof module is activated and deactivated by means of the convenience system central control unit per CAN databus. Each IM operating state is transmitted back to the convenience system central control unit, including the alarm signal, if the IM has been triggered.The driver can deactivate the IM once for this cycle between switching off the ignition and activating the ATA via the front central display and operating unit (CDC).
Front roof module
26
S273_089
Anti-theft alarm system (ATA) The anti-theft alarm system function is integrated in the convenience system central control unit. The information necessary for activation and deactiviation is provided by the entry and start authorisation relay. Communication takes place via the convenience CAN databus.
Activating the ATA
Deactivating the ATA
When the vehicle is locked with the radio-wave remote control, this status is transmitted via the CAN databus and the ATA is activated. The ATA can also be activated by actuating the emergency locking cylinder. In the convenience version of the Entry and Start Authorisation system, when locking the vehicle, the ATA is activated using the locking button in the outer door handles. If Terminal 15 is engaged or the driver's door opened, the ATA is not activated.
Authorised access is transmitted by a radio-wave remote control key via the CAN databus, causing deactivation. If the vehicle is entered by means of the mechanical emergency lock cylinder (if there is interference to radio communication or the radio-wave remote control key battery has discharged), Terminal 15 must be engaged at the latest after 15 seconds, otherwise the ATA will be deactivated.
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Convenience system central control unit Tilt sensor The tilt sensor ensures that the vehicle cannot be towed away without authorisation. The tilt sensor mechanism is based on what is known as the conductometric technique. It determines the change in resistance if there is a change in the volume of a viscous, electrically conductive liquid. Electrodes arranged at different positions project out of this liquid. Electrodes arranged at different positions project out of this liquid.
If the position of the sensor changes (if the vehicle is raised on one side), then the distribution of the fluid in the chambers also changes. When the level of the fluid in the compartments changes, the resistance determined across the electrodes in the chambers also changes. The change in the position of the tilt sensor caused by inclining the vehicle to one side changes the resistance. This is stored and activates the anti-theft alarm system. This is stored and activates the anti-theft alarm system.
S273_131
Subcompartment
Ceramic housing Indicator fluid Electrode
Operational amplifier
Electrode connections
S273_132
28
Rear lighting The convenience system central control unit controls the following lighting functions: ● ● ● ● ● ● ●
●
Right/left rear and marker light Left/right brake light 3rd brake light Left/right reversing light Rear fog light Number plate light Rear courtesy light or self-illuminating number plate Boot light
Number plate lighting
S273_129
Automatic closing The automatic closing motor ensures that the bootlid is securely closed as soon as a rotary latching contact is energised.
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Convenience system central control unit Bootlid control unit
Bootlid control unit
The bootlid control unit controls the complete bootlid opening and closing procedure and is assigned as a slave to the convenience system central control unit. It receives its information via a serial interface from the convenience system control unit and transmits its status and diagnostic messages back via the same interface.
S273_060
Rear shelf
Exterior button With basic equipment: ●
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The central locking is unlocked = press the button to open The central locking is locked = button activation is ignored
With convenience equipment: ●
●
The central locking is unlocked = press the button to open The central locking is locked = pressing the button triggers authorisation; in the event of a positive result the bootlid is opened.
For both types of equipment the exterior button for the bootlid is deactivated if the speed threshold is exceeded. It is enabled when a vehicle door is opened.
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S273_064
Emergency lock cylinder Bootlid exterior button
The convenience system central control unit and bootlid have selfdiagnostic capability using the VAS 5051 Diagnostic Testing and Information System via address word 46.
The bootlid is opened
Switch for bootlid, driver's door
either by means of ●
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●
the bootlid switch on the inner side of the driver's door under the speed threshold of 6 km/h, or the bootlid radio-wave remote control button (RLR), or the exterior bootlid button (concealed in the VW emblem).
S273_065
The bootlid is closed manually in the basic version, ●
manually
Bootlid radio-wave remote control button (RLR)
and with convenience equipment (with hydraulics) by using ● ● ●
●
the button in the bootlid, the radio-wave remote control or the switch on the inner side of the driver's door, and the exterior switch in the VW emblem.
The bootlid can only be shut if the bootlid has been learned-in (end position learned-in). Refer to the current Service Literature for information on how to carry out the learn-in process.
S273_083
Bootlid interior button
Pinch protection function A force limitation mechanism for the hydraulic pump clearly identifies any likelihood of anyone trapping a hand etc. when opening and closing the bootlid.
S273_063
Danger: During self-diagnosis "basic setting", there is no pinch protection function!
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Roof module Various electrical components are integrated in the roof module which are not all part of the same function system. Various electrical components are integrated in the roof module which are not all part of the same function system. For this reason not all components are controlled by the roof electronics control unit; some are controlled via separate control lines.
Components activated directly by the roof module: ● ● ● ● ● ●
● ● ●
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Interior lighting Interior lighting control Control for Terminal 30G Garage door opener Interior monitor (IM) Electronically controlled interior rear-view mirror with memory function (optional) Rain sensor Light sensor (optional) Humidity sensor and windscreen temperature sensor Control for sliding/tilting roof (refer to chapter entitled "Sliding/tilting roof“).
The humidity sensor and windscreen temperature sensor are assigned to the climate control system and are described in Self-Study Programme 271.
32
Not directly activated by the roof module: ●
●
●
Indirect dash panel lighting via the onboard power supply control unit Instrument lighting via the onboard power supply control unit Hands-free microphone via the car phone/telematics control unit
Front roof module 1 2 3 4 5 6 7 8 9 10
Hands-free microphone driver's side Driver's side reading light Driver's side reading lightOn/Off Interior light automatic function On/Off Sensors for interior monitor (optional) Actuation of garage door opener (optional) Actuation of interior light On/Off Actuation of reading light front passenger On/Off Rotary switch sliding/tilting roof (optional) Front passenger reading light
5
6
5
4
7
3
8 9 10
2
1 S273_015
Rear roof module 1 2 3 4 5
Rear left reading light Rear left reading light On/Off Interior light automatic function On/Off Actuation of interior light On/Off Rear right reading light
1
2
3
4
5
S273_074
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Roof module Interior lighting The interior light plus the driver's and front passenger reading lights and their switches are integrated in the roof module. The roof module assumes control of the interior lights in the vehicle. The necessary information is transmitted via the convenience CAN databus as shown in the following example: ● ● ● ● ●
Rotary latch contact (door open) NO contact (ignition key inserted) Terminal 15 (ignition "on") Anti-theft alarm system (ATA) triggered Crash signal (crash intensity).
Interior lighting control Switching the voltage supply for the interior lights, the reading lights and the vanity mirror lights is part of the interior lighting control.
To control the following lighting, the necessary information for the control units concerned is also provided by the roof module via the convenience CAN databus. ●
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●
The footwell lighting is dimmed and switched on and off by means of the seat control units as soon as the interior light in the roof module is switched on or off manually or automatically. The door exit warning lights are switched on undimmed by means of the door control units when doors are open. The door courtesy lights are switched on if a door is opened, an unlocking command exists, the ATA alarm is active or the automatic driving light control* has been activated.
●
The inner door handle lighting is switched on if a command is sent to the roof module via the convenience system central control unit to lock the vehicle. The interior door handle lights are activated via the door control units. The intensity of the inner door handle lighting is controlled via Terminal 58d. If Terminal 15 is on, it is activated at full brightness.
* For more detailed information on the automatic driving light control system please refer to the chapter entitled "Automatic driving light control" in this Self-Study Programme.
34
Control for Terminal 30G Terminal 30G is switched via the roof module and supplies the voltage for the glove box and vanity mirror lights. A pulse width modulated signal (PWM signal) is generated in the roof module.
Terminal 30G switches on under the following conditions: ● ●
Terminal 15 is switched on and the run-on period for the supply switched on has not expired.
Terminal 30G switches off under the following conditions: ●
●
●
●
after Terminal 15 has been switched off, if no interior light or reading light has been switched on for 30 seconds, an hour after Terminal 15 has been switched off and the interior light or reading light has been switched on, after an hour if Terminal 15 has been switched off and an interior light or reading light is switched on, immediately after all the conditions for switching off the dimmed front interior light have been met.
35
Roof module Garage door opener The garage door opener is supplied as an option. Up to three different garage door openers can be activated by means of the roof module. The driver must be responsible for learning-in the function of the garage door opener, as the function can vary depending on the manufacturer.
S273_115
Garage door opener in the front roof module
The garage door opener is only active if Terminal 15 is switched on. After Terminal 15 is switched off it remains active for a run-on period of 10 minutes. The run-on period is interrupted if a door is opened.
Interior monitor (IM) The interior monitor (IM) is controlled via the roof electronics control unit. The sensor technology is integrated in the roof module. The information necessary for control is transmitted by the convenience CAN databus.
Connector for the garage door opener Connector for the interior monitor (IM)
The roof electronics control unit detects any tripping via the IM sensors and transmits this by means of the convenience CAN databus. The convenience system central control unit receives this information and triggers the functions of the anti-theft alarm system (ATA).
S273_080
36
Activating the IM
Sensors for interior monitor (IM)
The IM is activated via the convenience system central control unit (anti-theft alarm system master).
Deactivating the IM Deactivating the IM depends on deactivating the anti-theft alarm system (ATA) by unlocking the central locking system. It is possible to switch off just once and bring about subsequent locking via the front central display and control unit (CDC).
S273_089
Front roof module
For more detailed information about the anti-theft alarm system (ATA) please refer to the chapter entitled "Convenience system central control unit“.
37
Roof module Electronically controlled interior rear-view mirror with memory function
Front roof module
The use of Electronic PhotoChromic (EPC) gel inside the automatic anti-dazzle interior mirror (electronically controlled interior rear-view mirror) allows it to automatically change the reflection when the light sensor detects an impinging bright light. By ● ● ●
engaging reverse gear, switching on the interior light and deactivating the electronically controlled function through the button on the bottom of the mirror,
Electronically controlled light sensor
S273_075
the roof electronics control unit adjusts the interior rear-view mirror for maximum brightness. Information about the selected reverse gear is received via the CAN databus.
Feedback potentiometer
Interior rear-view mirror memory function Basic adjustment for the interior rear-view mirror is carried out manually. The position of the interior rear-view mirror is recorded by two feedback potentiometers (x, y axis) and stored in the roof module. This stored information is transmitted via the convenience CAN databus to the seat control unit on the driver's side. Where there is appropriate equipment, in order to adjust the stored interior rear-view mirror position assigned to a memory button, the roof module receives the command from the driver's side seat control unit via the convenience CAN databus. This position is adjusted by means of two positioning motors in the mirror housing.
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Positioning motors Electronically controlled light sensor
S273_072
For further information on the electronically controlled interior rearview mirror please refer to Self-Study Programme 200 "The Golf ´98“.
Rain sensor
Front roof module
The rain sensor is supplied with voltage by the roof electronics control unit. Signals output by the rain sensor are sent in the form of commands to the wiper motor control unit via the convenience CAN databus.
The rain sensor is activated by means of the "Intermittent" and "Automatic" positions on the steering column switch (also refer to the chapter entitled "Wiper module".
S273_075
Rain sensor
S273_071
Sensitive surfaces of the rain sensor
The roof module is capable of self-diagnosis through the VAS 5051 Diagnostic Testing and Information System using address word 38 ("Roof electronics").
39
Roof module Sliding/tilting roof (STR)
Glass roof or solar roof
Motor for glass roof
The sliding/tilting roof (STR) is supplied with dimensions of 520 x 900 mm and with two equipment variants: ● ●
solar roof glass roof
Solar roof version The solar cell power output of 24 watts is used by activating the ventilator fan for the interior ventilation even if the ignition is not switched on.
S273_073
Motor for wind deflector
Sliding headliner Headliner motor in glass roof version
Operating the sliding/tilting roof (STR) The sliding/tilting roof (STR) is operated by means of the rotary switch on the roof module after it is by the convenience system central control unit. The roof electronics control unit outputs the signals to the sliding/tilting roof to enable the sliding/tilting roof and convenience opening and closing. Evaluation of the STR switch also takes place in the sliding/tilting roof.
For further information about the sliding/tilting roof please refer to SelfStudy Programme 270 "The Phaeton“.
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The STR function is enabled: - when the ignition is switched on (Terminal 15 on), - for a run-on period of 10 minutes after the ignition is switched off (Terminal 15 off), - as long as no door is opened. If the driver's door is opened within the run-on period, the sliding/tilting roof enable function is cancelled.
Glass roof version For the glass roof version, the roof module has two additional buttons at the front on the rotary switch to operate the roller blind. In the glass roof version the sliding headliner is activated electrically by a separate motor.
S273_086
Rotary switch in the front roof module with E 437 button for roller blind/sunroof
Convenience opening and closing function
Emergency closing function
Convenience operation allows the electric windows and a fitted sliding/tilting roof (STR) to be fully opened and closed. The function is configured via the front central display and control unit (CDC). The STR is not enabled by the convenience system central control unit until after the window regulators have reached the end position (if this convenience function is configured). The function is only active while it is being activated.
The "emergency closing" function is triggered by pressing the dot in the middle of the rotary switch. The sliding/tilting roof immediately travels to zero position with increased holding power.
Emergency closing
S273_088
The sliding/tilting roof is capable of self-diagnosis through the VAS 5051 Diagnostic Testing and Information System using address word 38 (roof electronics).
41
Roof module Automatic driving light control
Symbol for tunnel light
The automatic driving light control extends the previous number of functions on the rotary light switch. Firstly, the automatic driving light control (ALC) has a safety function. If the rotary light switch is positioned on the "automatic driving light control" function (tunnel light symbol), the entire vehicle lighting is switched on automatically at a brightness relative to the ambient light levels as detected by light sensors. The light sensors are read by the roof module. The automatic driving light control switches the following lighting on: ● ● ● ●
dipped beam tail light courtesy lights number plate lights
S273_004
Rotary light switch with "automatic driving light control" function
The lighting function that is activated by means of the rotary light switch always takes priority over the light function automatically selected by the automatic driving light control!
The tunnel light symbol is visible on the speedometer for a few seconds when the automatic driving light control is switched on.
S273_005
For simple faults such as processor failure, a defective sensor or an open circuit, the entire vehicle lighting is always switched on.
42
System overview Rain sensor/light sensors in roof module
Control unit for entry and start authorisation
Roof electronics control unit Rotary light switch
Onboard power supply control unit
Terminal 15
Dipped beam front left Dipped beam front right
Central control unit for convenience system
Side light front left
Side light front right
Side light left side Number plate lights Side light right side
S273_007
Right and left tail light
1 Terminal 15 on
6 Front right or left dipped beam defective
2 Automatic driving light control
7 Rear left and right parking light and number plate lighting defective
3 Light (dipped beam) on 4 Tail light (parking light) on 5 Dipped beam on
An additional circuit in the onboard power supply control unit ensures that the side lights and dipped beams can be switched on and off even if the µC fails!
43
Roof module Sensor The sensor comprises the following functions: ● ●
rain sensors and light sensors (optional)
The sensor is mounted on the windscreen (top centre) and linked electrically to the roof module. S273_075
Ambient light sensor/rain sensor
Directional sensors S273_111
The light sensor technology consists of the following components: ●
Three directional sensors with a viewing direction horizontal to the vehicle with a beam width of 10° for each sensor S273_006
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An ambient light sensor with viewing direction vertical to the vehicle and with a beam width of 10° and 80° to the side.
S273_113
The ambient light sensor also works as a rain sensor.
44
S273_112
Conditions for switching on When the vehicle enters a tunnel, the vehicle lighting is immediately switched on. It is switched off again with a time delay of 5 seconds after leaving the tunnel (this avoids flashing the lights by constantly switching on and off). By contrast, the vehicle lighting is not activated when passing bridges and travelling through short underpasses or in fog, as the horizontally arranged light sensor - in contrast to the vertically arranged light sensor - is able to detect light. In such cases the vehicle lighting must always be adjusted manually as required.
Rain sensor function If it rains, the vehicle lighting is activated after 10 seconds by a rain sensor using infrared detection. It is deactivated again if no further rain is detected for 200 seconds. The rain sensor also detects how severe the rain is and automatically activates the windscreen wipers and regulates the rate at which they wipe (refer also to the chapter entitled "Windscreen wiper module“).
45
Roof module Orientation lighting The convenience functions of orientation lighting assist the vehicle occupants by automatically switching on the vehicle lighting when they enter and leave the vehicle.
The entire interior lighting is switched on via the radio-wave remote control for up to four minutes after the vehicle doors are unlocked. This function is cancelled again when: S273_013 ● ●
●
the maximum time for this function has expired the orientation lighting is switched off via the CDC "Settings" menu the ignition is switched on.
22.5°C
92.1 MHz
TP 21.0°C
Settings Orientation lighting Run-on lighting time for the headlights
Back
2:30 min
S273_019
The orientation lighting switches the entire interior lighting off with a delay after occupants leave the vehicle when: ● ●
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the ignition is switched off, the vehicle lighting was switched on beforehand for at least three seconds, after opening a vehicle door, the system detects that all vehicle doors have been closed again, the vehicle doors are opened and closed again, as long as the orientation lighting is still activated and the battery protection time of 180 seconds has not yet elapsed.
The status of the interior lighting is not affected by the function of the orientation lighting. The last value for the orientation lighting in each case is stored in the onboard power supply control unit and used if the CAN signals fail.
If there is no light sensor fitted, the lights will also be switched on during the day!
46
System overview of orientation lighting Front information display and operating unit for information Control unit for entry and start authorisation
Rotary light switch
Terminal 15 Dipped beam front left
Onboard power supply control unit
Dipped beam front right
Roof electronics control unit Light sensor
Driver side door control unit
FP side door control unit
Courtesy light
Rotary door latch
Rear left door control unit
Courtesy lights
Rear right door control unit
Rotary door latch
Central control unit for convenience system
Rotary door latch
Rotary door latch
Courtesy lights
S273_008
1 Orientation lighting activated
7 Courtesy lighting for outer door handle
2 Terminal 15 off
8 Orientation lighting active
3 Rotary light switch was switched on beforehand (dipped beam) 4 Light sensor reports darkness, rotary light switch is set to automatic driving light control 5 Door open, rotary latch contact 6 Automatic driving light control active, switch on dipped beam
Automatic driving light control is capable of self-diagnosis through the VAS 5051 Diagnostic Testing and Information System using address word 49.
47
Roof module Windscreen wiper module The windscreen wiper module is a new development. It offers: ●
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●
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●
a dual motor wiper system without wiper linkage (small crankshaft drive) minimum noise from the wiper blades at turning points due to reduced wiper motor speed uniform wiping quality depending on road speed and wind pressure intermittent wipe controlled according to vehicle road speed wiper blade protected by alternating park position in the up or down direction lowered wiper arm park position outside range of vision (heated).
V217 Front passenger's side wiper motor (slave)
V216 Driver's side wiper motor (master) S273_125
Activating the wiper module The control electronics for the speed-regulated two-brush wiper motor is integrated in the gearbox cover and activates the wiper motor. The wiper motor on the driver's side (master) receives the wiping requests via a CAN interface. The wiper motor on the driver's side (master) receives the wiping requests via a CAN interface. The driver's side wiper module (master) on the other hand activates the windscreen washer pump directly.
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Wiper motor (master) The wiper arm is moved up and down by reversing the wiper motor (master). To achieve this, the motor terminal voltage changes poles in the reverse positions. To regulate the wiper speed, the motor speed and position of the wiper arm are measured by Hall senders on the armature and gearwheel.
MOS-FET
Voltage regulator
Output stage driver
Two-brush motor
µC
Serial interface
CAN transceiver
Hall sender on gearbox
Hall sender on armature
S273_069
MOS-FET
Voltage regulator
Output stage driver
µC
Serial interface
CAN transceiver
Hall sender on gearbox
Hall sender on armature
S273_070
49
Roof module Switch positions and intervals The Phaeton has the following switch positions:
1 Continuous wipe Stage 2 2 Intermittent wipe Stage 1 (rain sensor active)
1
3 Wipe function off
2
4 Flick wipe 3
In the intermittent position it is possible to activate the wipers at three different speeds, depending on the level of wetness on the windscreen.
To renew the wipers, the wiper arms must be moved to a vertical position via the front central display and control unit (CDC)! Please do not remove the wipers independently!
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4
S273_091
Wiper park position, heated
Light/rain sensor
Steering column electronics control unit
Roof electronics control unit
Control unit, front information display and operating unit
Heating relay for washer jets
Wiper motor control unit (master)
Onboard power supply control unit
Washer pump
Terminal 75A Relay headlight washer system pump
Pop-up washer jets Left right brake light
Control unit for wiper motor, front passenger's side (Slave)
Side light switch
Dash panel insert Gateway)
Washer fluid sensor
S273_009
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